Rensselaer Polytechnic Institute

Books:

  1. H.-N. Yang, G.-C. Wang, and T.-M. Lu, Diffraction from rough surfaces and dynamic growth fronts, World Scientific, Dec. 1993.
  2. Y. -P. Zhao, G.-C. Wang, and T.-M. Lu, Characterization of amorphous and crystalline rough surface: principles and applications (Experimental Methods in the Physical Science Vol. 37) Academic Press, 2001.[Table of Content TOC]
  3. G.-C. Wang, T.-M. Lu, RHEED transmission and pole figures: Thin film and nanostructure texture analysis Springer, NY (2014).

Book chapters:

  1. M. G. Lagally, G.-C. Wang, and T.-M. Lu, "Chemisorption: island formation and adatom interactions," Chemistry and physics of solid surfaces, Ed. R. Vanselow, CRC Press, Vol. II, 153-180 (1979).
  2. D.P. Woodruff, G.-C. Wang and T.-M. Lu, "Surface structures and order-disorder phase transitions," the chemical physics of solid surfaces and heterogeneous catalysis, Ed. D.A. King and D.P. Woodruff, Elsevier North Holland, Amsterdam (1983).
  3. G.-C. Wang, J.-K. Zuo, and T.-M. Lu, "Kinetic of overlayer growth," NATO study institute proceeding Phase transition in surface films, Ed. H. Taub, G. Torzo, H. J. Lauter, and S.C. Fain, Jr., Pleum, NY (1991).

Patent granted:

    Ultrathin MG nanoblades, US 8282993 B2.

2013 papers:

  1. Engineering Epitaxial-Nanospiral Metal Films Using Dynamic Oblique Angle Deposition, Liang Chen, Luke Andrea (2012 summer REU), Yukta P. Timalsina, Gwo-Ching Wang, and Toh-Ming Lu, Cryst. Growth and Des. 13, 2075-2080 (2013). http://dx.doi.org/10.1021/cg400142g
  2. Creation of biaxial body center cubic tungsten nanorods under dynamic shadowing effect, Liang Chen, Toh-Ming Lu, and Gwo-Ching Wang, Thin Solid Films 539, 65-69 (2013). http://dx.doi.org/10.1016/j.tsf.2013.04.151
  3. A study of Parylene coated Pd/Mg nanoblabes for reversible hydrogen storage Y. Liu1, Alexander Rzhevskii2, S. Rigos (2011 summer REU)1, W.Y. Xie1, S.B. Zhang1, T.-M. Lu1, and G.-C. Wang1*
    1 Department of Physics, Applied Physics and Astronomy, Rensselaer Polytechnic Institute, 110, 8th St., Troy, NY 12180
    2 Thermo Fisher Scientific, Center of Excellence, 2 Radcliff Rd., Tewksbury, MA 01876 International Journal of Hydrogen storage 38, 5019-5029 (2013). http://dx.doi.org/10.1016/j.ijhydene.2013.02.007
  4. Orientational domains in metalorganic chemical vapor deposited CdTe(111) film on cube-textured Ni, G.-C. Wanga, L. Zhangb, Kim Kisslingerb, C. Gairea, A. Goyald, I. Bhatc, T.-M. Lua
    a Department of Physics, Applied Physics and Astronomy, Rensselaer Polytechnic Institute, Troy, NY 12180
    b Center for Functional Nanomaterials, Brookhaven National Laboratory, Upton, NY 11973
    c Department of Electrical, Computer and System Engineering, Rensselaer Polytechnic Institute, Troy, NY 12180
    d Oak Ridge National Lab, Oak Ridge, TN 37831
    Thin Solid Films 531, page 217-221 (2013). http://dx.doi.org/10.1016/j.tsf.2013.01.082
  5. Evidence of enhanced electron-phonon coupling in ultrathin epitaxial copper films, Y.P. Timalsina, Xiaohan Shen, G. Boruchowitz, Zhangping Fu, Guoguang Qian, M. Yamaguchi, Gwo-Ching Wang, Kim Lewis, T.-M. Lu, Applied Physics Letters, v 103, n 19, p 191602 (5 pp.) (2013). http://dx.doi.org/10.1063/1.4829643
  6. Dynamic oblique angle deposition of nanostructures for energy applications, G.-C. Wang, T.-M. Lu and I. Bhat, Advanced ceramic coatings and materials for extreme environments III Ceramic Engineering and Science Proceedings, Volume 34 Issue 3, pages 31-45 (2013). DOI: 10.1002/9781118807651.ch4

2012 papers:

  1. Air stability of low-temperature dehydrogenation of Pd-decorated Mg blades, Y. Liu and G.-C. Wang, Nanotechnology 23, 025401 (2012). doi:10.1088/0957-4484/23/2/025401
  2. Epitaxial growth of CdTe thin film on cube-textured Ni by metal-organic chemical vapor deposition, C. Gaire, S. Rao, M. Riley, L. Chen, A. Goyal, S. Lee, I. Bhat, T.-M. Lu, G.-C. Wang, Thin Solid Films 520, 1862-1865 (2012). DOI: 10.1016/j.tsf.2011.09.019
  3. Low temperature epitaxial growth of Ge on CaF2 buffered cube-textured Ni C. Gaire, J. Palazzo, I. Bhat, A. Goyal, G.-C. Wang, and T.-M. Lu, J. of Crystal Growth 343, 33 (2012). DOI:10.1016/j.jcrysgro.2012.01.035
  4. Gold-sulfur bond breaking in Zn(II) tetraphenylporphyrin molecular junctions, Adam J. Simbeck, Guoguang Qian, Saroj K. Nayak, Gwo-Ching Wang, and Kim M. Lewis, Surf. Sci. 606, 1412-1415 (2012). doi:10.1016/j.susc.2012.05.001
  5. Incident flux angle induced crystal texture transformation in nanostructured molybdenum films L. Chen, T.-M. Lu, and G.-C. Wang, J. Applied Physics 112, 024303 (2012). doi: 10.1063/1.4737403 (2012)
  6. High rectification ratios of Fe-porphyrin molecules on Au facets Xiaoyu Wang, Gwo-Ching Wang and Kim M. Lewis Materials Chemistry and Physics 2012 http://dx.doi.org/10.1016/j.matchemphys.2012.06.051

2011 papers:

  1. Low-temperature cycling of hydrogenation-dehydrogeneration of Pd-decorated Mg nanoblades, Y. Liu, L. Chen, T.-M. Lu and G.-C. Wang, International J. of Hydrogen Energy 36, 11752 – 11759 (2011). http://dx.doi.org/10.1016/j.ijhydene.2011.06.005
  2. Temperature dependent biaxial texture evolution in Ge films under oblique angle vapor deposition, P. Snow, C. Gaire, T.-M. Lu and G.-C. Wang, Thin Solid Film 519 (16), pp. 5413-5418 (2011). DOI: 10.1016/j.tsf.2011.02.061
  3. Epitaxial growth of CdTe thin film on cube-textured Ni by metal-organic chemical vapor deposition, C. Gaire1, S. Rao2, M. Riley3, L. Chen1, A. Goyal4, S. Lee5, I. Bhat2, T.-M. Lu1, G.-C. Wang1.
    1 Department of Physics, Applied Physics and Astronomy, 2 Department of Electrical, Computer, and Systems Engineering, 3 Department of Chemical and Biological Engineering, Rensselaer Polytechnic Institute, Troy, NY 12180-3590 and 4 Amit Goyal, Oak Ridge National Lab, Oak ridge, TN 37830, 5 Benet Labs, Watervliet, NY. Thin Solid Films, 2011. http://dx.doi.org/10.1016/j.tsf.2011.09.019
  4. Biaxially textured Mo films with diverse morphologies by substrate-flipping rotation, L. Chen, T.-M. Lu, and G.-C. Wang, Nanotechnology 22, 505701 (7pp) (2011). doi:10.1088/0957-4484/22/50/505701
  5. Study of metal adhesion on porous low-k dielectric using telephone cord buckling, M. He*, C. Gaire, G.-C. Wang, and T.-M. Lu, Department of Physics, Applied Physics and Astronomy, Rensselaer Polytechnic Institute, Troy, NY, 12180, USA. Microelectronics Reliability 51, 847-850 (2011). http://dx.doi.org/10.1016/j.microrel.2010.11.015
  6. Novel Ultrathin Mg Nanoblades for Hydrogen Storage, Fu Tang, Gwo-Ching Wang and Toh-Ming Lu, MRS Online Proceedings Library / Volume 1216 / 1216-W05-02 (2010). Published online: 31 January 2011. DOI:10.1557/PROC-1216-W05-02.
  7. RHEED Pole Figure Measurements of Biaxial Thin Film Growth Front Evolution, Gwo-Ching Wang, Yu Liu, Churamani Gaire, Wen Yuan, and Toh-Ming Lu, 2010 Fall MRS Symp. Proceeding. MRS Online Proceedings Library / Volume 1308 / mrsf10-1308-dd04-02 (2010). Published online: 07 March 2011. DOI:10.1557/opl.2011.307
  8. Measurements of resonance frequency of parylene microspring arrays using atomic force microscopy, C. Gaire, M. He, A. Zandiatashba, P.-I. Wang, R.C. Picu, G.-C. Wang and T.-M. Lu, Materials Research Society Symposium Proceedings, v 1299, p 9-14, 2011, Microelectromechanical Systems - Materials and Devices IV. DOI: 10.1557/opl.2011.63

2010 papers:

  1. "Mechanical properties of porous methyl silsesquioxane and nanoclustering silica films using atomic force microscope", C. Gaire, Y. Ou, H. Arao, M. Egami, A. Nakashima, R. C. Picu, G.-C. Wang, and T.-M. Lu, Journal of Porous Materials 17, 11-18 (2010). [Full text PDF].
  2. “Small angle grain boundary Ge films on biaxialCaF2/glass substrate”, C. Gaire, P.C. Clemmer, H.-F. Li, T.C. Parker, P. Snow, I. Bhat, S. Lee, G.-C. Wang, and T.-M. Lu, Journal of Crystal Growth 312, 607 (2010). [Full text PDF]
  3. "Quasi-single crystal semiconductors on glass substrates through biaxially oriented buffer layers", T.-M. Lu, H. Li, C. Gaire, N. LiCausi, T.-L. Chan, I. Bhat, S.B. Zhang, and G.-C. Wang, 2010 spring MRS proceeding, EE: Defects in Inorganic Photovoltaic Materials, edited by D. Friedman, M. Stavola, W. Walukiewicz, S. Zhang (Mater. Res. Soc. Symp. Proc. Vol. 1268, Warrendale, PA, 2010), 1268-EE03-06. [Full text PDF]
  4. "Texture evolution of vertically aligned biaxial tungsten nanorods using RHEED surface pole figure technique", R Krishnan1, Y Liu2, C Gaire2, L Chen2, G-C Wang2 and T-M Lu2
    1Department of Materials Science and Engineering, Rensselaer Polytechnic Institute, 110 8th St., Troy, NY 12180, USA, 2Department of Physics, Applied Physics and Astronomy, Rensselaer Polytechnic Institute, 110 8th St., Troy, NY 12180, USA, Nanotechnology 21, 325704 (2010).[Full text PDF]
  5. "Type B epitaxy of Ge on CaF2(111) surface", T.-L. Chan, C. Gaire, T.-M. Lu, G.-C. Wang, and S.B. Zhang, Surface Science 604, 1645 (2010).[Full text PDF]
  6. "Morphology and texture evolution of nanostructured CaF2 films on amorphous substrates under oblique incidence flux", C. Gaire, P. Snow, T.-L. Chan, W. Yuan, M. Riley, Y. Liu, S.-B. Zhang, G.-C. Wang, and T.-M. Lu, Department of Physics, Applied Physics and Astronomy, Rensselaer Polytechnic Institute, Troy, NY, 12180, USA. Nanotechnology 21 (44), 445701 (9 pp.), (2010). [Full text PDF]
  7. "Biaxially textured Al film growth on CaF2 nanostructures toward a method of preparing single-crystalline Si film on glass substrates", Huafang Li, Patrick Snow, Ming He, Pei-I Wang, Gwo-Ching Wang, and Toh-Ming Lu, ACS Nano Lett. 4(10), 5627-5632 (2010). [Full text PDF]

2009 papers:

  1. "Size control of Cu nanorods through oxygen-mediated growth and low temperature sintering", Pei-I. Wang, T.C. Parker, T. Karabacak, G.-C.  Wang, T.-M. Lu, Nanotechnol. 20 (8), 085605 (2009). [Full text PDF]
  2. “In-situ RHEED study of epitaxial growth of Cu on NaCl (100) under oblique angle vapor deposition”, C. Gaire, F. Tang, and G.-C. Wang, Thin Solid Films 517, 4509 (2009). [Full text PDF]
  3.  “Biaxial CdTe/CaF2 films growth on amorphous surface”, W. Yuana, F. Tanga, H.-F. Lia, T. Parkera, N. LiCausi b, G.-C. Wanga, T.-M. Lua, and I. Bhat b, Department of Physics, Applied Physics and Astronomy, b Department of Electrical, Computer and Systems Engineering, and S. Lee, US Army Armament Research, Development and Engineering Center, Benét Labs, Watervliet, NY, Thin Solid Films 517 (24), 6623-6628 (2009). [Full text PDF]
  4. “Growth of CdTe Films on Amorphous Substrates Using CaF2 Nanorods as a Buffer Layer” Nicholas LiCausi1, Wen Yuan2, Fu Tang2, Thomas Parker2, Huafang Li2, Gwo-Ching Wang2, Toh-Ming Lu2 and Ishwara Bhat1, 1. Department of Electrical, Computer and Systems Engineering, 2. Department of Physics, Applied Physics and Astronomy, Rensselaer Polytechnic Institute, 110 8th Street, Troy, NY 12180, J. of Electronic Materials 38 (8), 1600-1604 (2009). [Full text PDF]
  5. “Small angle grain boundary Ge films on biaxial CaF2/glass substrate”, C. Gaire1,*, P. C. Clemmer2 (2009 summer REU student from Grove City College), H.-F. Li1, T. C. Parker1, P. Snow1, I. Bhat3, S. Lee4, G.-C. Wang1, and T.-M. Lu1, 1. Department of Physics, Applied Physics and Astronomy, 2. Grove City College, 3. Department of Electrical, Computer and Systems Engineering, 4. US Army Armament Research, Development and Engineering Center, Benét Labs, Watervliet, NY. J. of Crystal Growth, accepted in Nov. (2009). [Full text PDF].

2008 papers:

  1. “Non-contact atomic force microscopy characterization of vibrators with frequencies up to the tens of MHz”, T. C. Parker, F. Tang, G.-C. Wang, and T.-M. Lu, Sensors & Actuators A: Physical 148, 306 (2008). [Full text PDF]
  2. “Pd catalyst effect on low temperature hydrogen desorption from hydrided ultrathin Mg nanoblades”, F. Tang*, T. Parker*, H.-F. Li, G.-C. Wang, and T.-M. Lu, Nanotechnology, 19, 465706 (2008). [Full text PDF]
  3. Deformation of amorphous Si nanostructures subjected to monotonic and cyclic loading", C. Gaire, D.-X. Ye, T.-M. Lu, G.-C. Wang, and R. C. Picu (MANE dept.), J. of Mater. Res. 23 (2), 328 (2008). [Full text PDF]
  4. Magnetoresistance of oblique angle deposited multilayered Co/Cu nanocolumns measured by scanning tunneling microscope", P. Morrow, X.-T. Tang, T.C. Parker, M. Shima, and G.-C. Wang, Nanotechnology 19, 065712 (2008). [Full text PDF]
  5. Biaxially oriented CaF2 films on amorphous substrates", H.-F. Li, T. Parker, F. Tang, G.-C. Wang, T.-M. Lu, and S. Lee (US Army Armament Research, Development and Engineering Center, Benet Labs, Watervliet, NY 12189), J. of Crystal Growth 310, 3610-3614 (2008). [Full text PDF]
  6. “Shadowing growth of biaxially textured nanostructured films”, Toh-Ming Lu, Fu Tang, and Gwo-Ching Wang, Proc. of SPIE vol. 7041, 704107-1 (2008). [Full text PDF]
  7. “Morphology and texture of Cu nanorod films grown by controlling directional flux in physical vapor deposition”, H.-F. Li, A. K. Kar, T. Parker, G.-C. Wang and T.-M. Lu, Nanotechnology 19, 335708 (2008). [Full text PDF]
  8. In situ RHEED study of dehydrogenation process of Pd coated Mg nanoblades”, F. Tang, W. Yuan, T.-M. Lu, and G.-C. Wang, J. of Appl. Phys. 104, 033534 (2008). [Full text PDF]

2007 papers:

  1. F. Tang, T. Parker, G.-C. Wang, and T.-M. Lu, "Surface texture evolution of polycrystalline and nanostructured films: RHEED surface pole figure analysis", Journal of Physics D: Applied Physics 40, R427 - R439 (2007), Invited Topical review. [Full text PDF]
  2. F. Tang, G.-C. Wang, and T.-M. Lu, "In situ RHEED surface pole figure study of biaxial texture evolution in anisotropic Mg nanoblades during shadowing growth", J. Appl. Phys. 102, 014306 (2007). [Full text PDF]
  3. F. Tang, T. Parker, H.-F. Li, G.-C. Wang, and T.-M. Lu, "Unusual magnesium crystalline nanoblades grown by oblique angle vapor deposition", Journal of Nanoscience and Nanotechnology 7, 3239-3244 (2007). [Full text PDF]
  4. F. Tang, T. Karabacak, L. Li, M. Pelliccione (2005 REU), G.-C. Wang, and T.-M. Lu, "Power-law scaling during shadowing growth of nanocolumns by oblique angle deposition", JVST A25 (1), 160-166 (2007). [Full text PDF]
  5. X.-T. Tang(a), G.-C. Wang( a), and M. Shima( b)
    (a) Department of Physics, Applied Physics and Astronomy
    (b) Department of Materials Science and Engineering
    Rensselaer Polytechnic Institute, Troy, NY 12180-3590
    "Layer thickness dependent CPP-GMR of individual electrodeposited CoNi/Cu multilayer nanowires", Phys. Rev. B 75 (13) 134401-1-10 (2007). [Full Text PDF]
  6. X.-T. Tang, G.-C. Wang, and M. Shima, "Magnetic layer thickness dependence of magnetization reversal in electrodeposited CoNi/Cu multilayer nanowires", J. of Magnetism and Magnetic Materials 309 (2) 188-196 (2007). [Full text PDF]
  7. S. Pimanpang, Pei-I. Wang, Dexian Ye, Jasbir S. Juneja, G.-C. Wang, and T.-M. Lu, "Enhancement of Cu(hfac)2 chemisorption on the Paralene surface by N2 plasma surface modification", J. of Electrochemical Society 154 (10), G215 -G219 (2007). [Full text PDF]
  8. A K Kar(1), P Morrow(1), X-T Tang(1), T C Parker(1), H Li(1), J-Y Dai(2), M Shima(3) and G-C Wang(1)
    (1) Department of Physics, Applied Physics and Astronomy, Rensselaer Polytechnic Institute, Troy, New York 12180-3590
    (2) Department of Applied Physics, The Hong Kong Polytechnic University, Hung Hom, Kowloon, Hong Kong, PR China
    (3) Department of Materials Science and Engineering, Rensselaer Polytechnic Institute, Troy, New York 12180-3590
    "Epitaxial multilayered Co/Cu nanocolumns grown by oblique angle deposition",
    J. Nanotechnology 18, 295702 (2007). [Full text PDF]
  9. Gregory A. Ten Eyck*, Samuk Pimanpang¥, Jasbir S. Junejañ, Hassaram Bakhru, Toh-Ming Lu¥, and Gwo-Ching Wang¥
    * Rensselaer Polytechnic Institute, Dept. of Electrical, Computer, and Systems Engineering, Troy, NY 12180-3590
    ¥ Dept. of Physics, Applied Physics and Astronomy
    ñ Dept. of Chemical and Biological Engineering
    College of Nanoscale Science and Engineering, SUNY at Albany, NY 12203
    "Plasma enhanced atomic layer deposition of palladium on a polymer substrate", Advanced Materials Chemical Vapor Deposition 13, Issue 6-7, 307 (2007). [Full text PDF]
  10. J. P. Singh, T. Karabacak, P. Morrow, S. Pimanpang, T.-M. Lu and G.-C. Wang, "Preferred orientation in Ru nanocolumns induced by residual oxygen", J. Nanosci. and Nanotechnol. 7, 2192-2196 (2007).

2006 papers:

  1. F. Tang, G.-C. Wang, and T.-M. Lu, "Surface pole figures by reflection high-energy electron diffraction", Appl. Phys. Lett. 89, 241903 (2006). [Full Text PDF]
  2. P. Morrow, F. Tang, T. Karabacak, P.-I. Wang, D.-X Ye, G.-C. Wang, and T.-M. Lu, "Texture of Ru columns grown by oblique angle sputter deposition", J. Vac. Sci. Technol. A, Vol. 24, No. 2, 235 (2006). [Full Text PDF]
  3. M. Pelliccione, T. Karabacak, C. Gaire, G.-C. Wang, and T.-M. Lu, "Mound formation in surface growth under shadowing", Physical Review B 74, 125420 (2006). [Full Text PDF]
  4. Tansel Karabacak, James S. DeLuca, and Pei-I Wang, Gregory A. Ten Eyck, Dexian Ye, Gwo-Ching Wang, and Toh-Ming Lu, "Low temperature melting of copper nanorod arrays", J. Appl. Phys. 99, 064304 (2006). [Full Text PDF]
  5. Xue-Ti Tang, Gwo-Ching Wang, Mutsuhiro Shima, "Magnetic layer thickness dependence of magnetization reversal in electrodeposited CoNi/Cu multilayer nanowires", JMMM 309, 188-196 (2007). [Full Text PDF]
  6. Xue-Ti Tang, Gwo-Ching Wang, and Mutsuhiro Shima, "Field Angle and Thickness Dependence of Coercivity in Electrodeposited CoNi–Cu Multilayer Nanowires", IEEE Transactions on Magnetics, VOL. 42, NO. 10, October (2006). [Full Text PDF]
  7. X.-T. Tang, G.-C. Wang and M. Shima, "Superparamagnetic behavior in ultrathin CoNi layers of electrodeposited CoNi/Cu multilayer nanowires", J. Appl. Phys. 99, 123910 (2006) [Full Text PDF]
  8. X.-T. Tang, G.-C. Wang and M. Shima, "Perpendicular giant magnetoresistance of electrodeposited Co/Cu-multilayered nanowires in porous alumina templates", J. Appl. Phys. 99, 033906 (2006) [Full Text PDF]
  9. S. Pimanpang, Pei-I Wang, Jasbir S. Juneja, G.-C. Wang, and T.-M. Lu, "Interfacial interaction of in situ Cu growth on tetrasulfide self-assembled monolayer on plasma treated parylene surface", J. Vac. Sci. Technol. A 24(5) 1884 (2006) [Full Text PDF]
  10. S. Pimanpang *, Pei-I. Wang, G.-C. Wang, T.-M. Lu, "Self-assembled monolayer growth on chemically
    modified polymer surfaces"
    , Applied Surface Science 252, 3532–3540 (2006)[Full Text PDF]
  11. S. Pimanpang ., Pei-I Wang, J.J. Senkevich, G.-C. Wang, T.-M. Lu, "Effect of hydrophilic group on water droplet contact angles on surfaces of acid modified SiLK and Parylene polymers", Colloids and Surfaces A: Physicochem. Eng. Aspects 278, 53–59 (2006)[Full Text PDF]
  12. M.A. Soare, R.C. Picu, J. Tichy, T.-M. Lu and G.-C. Wang, "Fluid transport through nanochannels using nano-electromechanical actuators", Journal of Intelligent Material Systems and Structures, 17(3), 231 (2006).

2005 papers:

  1. F. Tang, T. Karabacak, P. Morrow, C. Gaire, G.-C. Wang, and T.-M. Lu, "Texture evoluation during shadowing growth of isolated Ru columns", Physical Review B72, 165402 (2005). DOI:10.1103/PhysRevB.72.165402
  2. Gregory A. Ten Eyck, Jay Senkevich, Fu Tang, Deli Liu, Samuk Pimanpang, Tansel Karabacak, Gwo-Ching Wang, Toh-Ming Lu, Christopher Jezewski, and William A. Lanford, "Plasma assisted atomic layer deposition of Palladium", Chem. Vapor Deposition, 11 (1), 60 (2005). [Full Text PDF]
  3. J.P. Singh, T. Karabacak, D.-X. Ye, D.-L. Liu, C. Picu+, T.-M. Lu, G.-C. Wang, "Physical properties of nanostructures grown by oblique angle deposition", J. of Vacuum Science and Technology, B 23 (5), 2114-21 (2005). October 3, 2005 issue of Virtual Journal of Nanoscale Science & Technology. One can access the Virtual Journal at http://www.vjnano.org.
  4. F. Tang, C. Gaire, D.-X. Ye, T. Karabacak, T.-M. Lu and G.-C. Wang, "AFM, SEM and in situ RHEED study of Cu texture evolution on amorphous carbon by oblique angle vapor deposition", Phys. Rev. B 72 (3), 35430-1-8 (2005). [Full Text PDF]
  5. C. Gaire, D. -X. Ye, F. Tang, R. C. Picu, G. -C. Wang and T. -M. Lu, "Mechanical testing of isolated amorphous silicon slanted nanorods", Journal of Nanoscience and Nanotechnology 5, 1892-1897 (2005). [Full Text PDF]
  6. D.-X. Ye, T. Karabacak, G.-C. Wang, and T.-M. Lu, "Uniform Si nano-structures grown by oblique angle deposition with substrate swing rotation", Nanotechnology 16, 1717-1723 (2005). [Full Text PDF]
  7. T. Karabacak, J.J. Senkevich, G.-C. Wang, and T.-M. Lu, "Stress reduction in sputter deposited films using nanostructured compliant layers by high working-gas pressures", J. Vac. Sci. Technol. A 23, 986 (2005). [Full Text PDF]
  8. D.-X. Ye, S. Pimanpang, C. Jezewski, F. Tang, J.J. Senkevich, G.-C. Wang, and T.-M. Lu, "Low temperature chemical vapor deposition of Co thin films from Co2(CO)8", Thin Solid Films 485 (1-2), 95-100 (2005). [Full Text PDF]
  9. D.-X. Ye, B. Carrow, S. Pimanpang, H. Bakhru, G. A. Ten Eyck, G.-C. Wang and T.-M. Lu, "Synthesis and evaluation of a novel Cu(I) precursor for chemical vapor deposition", Electrochemical and Solid-State Letters 8, C85 (2005). [Full Text PDF]
  10. Tansel Karabacak, Pei-I Wang, Gwo-Ching Wang, and Toh-Ming Lu, "Phase transformation of single crystal -tungsten nanorods at elevated temperatures", Thin Solid Film 493, 293 - 296 (2005). [Full Text PDF]
  11. Tansel Karabacak, Gwo-Ching Wang and Toh-Ming Lu, "Enhanced layer coverage of thin films by oblique angle deposition", 2004 Fall MRS, 859E, JJ. 9.5 (2005). [Full Text PDF]
  12. Toh-Ming Lu, T. Karabacak, D.-X. Ye, and G.-C. Wang, "Physical self-assembly and nano-patterning", MRS Fall Meeting Symp. Submitted in Dec. 2004. [Full Text PDF]

2004 papers:

  1. Pei-I Wang, Y.-P. Zhao, G.-C. Wang, and T.-M. Lu, "Novel growth mechanism of single crystalline Cu nanorods by electron beam irradiation", J. Nanotechnology 15, 218 (2004). [Full Text PDF]
  2. J.P. Singh, D.-L. Liu, D.-X. Ye, R.C. Picu, T.-M. Lu and G.-C. Wang, "Metal coated Si springs: nanoelectromechanical actuators", Appl. Phys. Lett. 84(18), 3657 (2004). [Full Text PDF]
  3. D.-X. Ye, T. Karabacak, B. K. Lim, G.-C. Wang and T.-M. Lu, "Growth of uniformly aligned nanorod arrays by oblique angle deposition with two-phase substrate rotation", Nanotechnology 15, 817 (2004).[Full Text PDF]
  4. J.P. Singh, F. Tang, T. Karabacak, T.-M. Lu, and G.-C. Wang, "Enhanced cold field emission from <100> oriented beta-W nanoemitters fabricated by glancing angle sputter deposition", J. Vac. Sci. Technol. B22, 1048 (2004).[Full Text PDF]
  5. C. Jezewski, C. J. Wiegand, D.-X. Ye, A. Mallikarjunan, D.-L. Liu, C. Jin, W. A. Lanford, G.-C. Wang, Jay J. Senkevich, and T.-M. Lu, "Molecular CaulkingTM: A pore sealing chemical vapor deposited polymer for ultra-low k dielectrics", Journal of the electrochemical society 151 (7), F157 (2004). [Full Text PDF]
  6. T. Karabacak, G.-C. Wang, and T.-M. Lu, "Physical self-assembly and the nucleation of 3D nanostructures by oblique angle deposition", J. Vac. Sci. Technol. A 22(4), 1778 (2004). [Full Text PDF]
  7. J.P. Singh, T. Karabacak, N. Koratkar, T.-M. Lu, and G.-C. Wang, "Field ionization of Argon using beta-phase W nanorods", Appl. Phys. Lett. 85, Oct. 4 (2004). [Full Text PDF]
  8. D.-L. Liu, T.-M. Lu, R.C. Picu, and G.-C. Wang, "Size effect and strain rate sensitivity in Benzocyclobutene film", Appl. Phys. Lett. 85, Oct. 11 (2004). [Full Text PDF]
  9. Jay J. Senkevich, G.-R. Yang, F. Tang, G.-C. Wang, T.-M. Lu, T.S. Cale, C. Jezewski, and W. A. Lanford, "Substrate independent sulfur atomic layer activation to promote the chemisorption of highly polarizable metallorganics", Appl. Phys. A79 (7), 1789-96 (2004). [Full Text PDF]
  10. T. Karabacak, Jay J. Senkevich, G.-C. Wang and T.-M. Lu, "Stress reduction in sputter deposited thin films using physically-self-assembled nanostructures as compliant layers", Proceeding of 2004 Society of Vacuum Coaters, in press. [Full Text PDF]
  11. F. Tang, D.-L. Liu, D.-X. Ye, T.-M. Lu, and G.-C. Wang, "Asymmetry of magneto-optical Kerr effect loops of Co nanocolumns grown by oblique incident angle deposition", J. Mag. Mag. Mat. 283 (1), 65-70 (2004). [Full Text PDF]
  12. G.-C. Wang, T.-M. Lu, M. Shur, S. Kalyanaraman, and X.-C. Zhang, "Educational and training program of THz Science and Technology at Rensselaer", in Education and Training in Optics and Photonics on CD-ROM (Optical Society of America, Washington, DC, 2004), EMG2.
  13. J.T. Drotar, T.-M. Lu, and G.-C. Wang, "Real-time observation of film structure during copper growth on silicon oxide", J. Appl. Phys. 96 (12), 7071 (2004). [Full Text PDF]
  14. T. Karabacak, R. C. Picu, Jay J. Senkevich, G.-C. Wang, and T.-M. Lu, "Stress reduction in tungsten films using nanostructured compliant layers by oblique angle sputter deposition", J. of Appl. Phys. 96 (10), 5740-6 (2004). [Full Text PDF]
  15. T. Karabacak, Pei-I Wang, G.-C. Wang, and T.-M. Lu, "Growth of single crystal tungsten nanorods by oblique angle sputter deposition", MRS 788, 75-80 (2004). [Full Text PDF]
  16. C. L. Hapenciuc, F. J. Khan, T. Borca-Tasciuc, and G.-C. Wang, "Development of experimental techniques for thermoelectric properties characterization of low-dimensional structures", MRS 793, 181 (2004). [Full Text PDF]
  17. Jay J. Senkevich, Christopher Jezewski, Deli Liu, William A. Landford, Gwo-Ching Wang, and Toh-Ming Lu, "Molecular caulk: A pore sealing technology for ultra low k dielectrics", MRS Mat. Res. Soc. Symp. Proc. 812, F1.2 (2004). [Full Text PDF]

2003 papers:

  1. F. Tang, D.-L. Liu, D.-X. Ye, A. Vijayaraghavan, Y.-P. Zhao, T.-M. Lu, and G.-C. Wang, "Magnetic properties of Co nano columns fabricated by oblique angle deposition", J. Appl. Phys. 93, 4194 (2003). [Full Text PDF]
  2. J.P. Singh, T.-M. Lu, and G.-C. Wang, "Field-induced cation migration in Cu oxide films by in situ scanning tunneling microscopy", Appl. Phys. Lett. 82(26), 4672 (2003). [Full Text PDF]
  3. J.P. Singh, T. Karabacak, T.-M. Lu, G.- C. Wang, "Nanoridge domains in alpha-phase W films", Surface Science 538(3), L483 (2003). [Full Text PDF]
  4. T. Karabacak, J.P. Singh, Y.-P. Zhao, G.-C. Wang, and T.-M. Lu, "Scaling during shadowing growth of isolated nano-columns", Phys. Rev. B68 125408 (2003). [Full Text PDF]
  5. T. Karabacak, G.-C. Wang, and T.-M. Lu, "Quasi-periodic nano-structures grown by oblique angle deposition", J. Appl. Phys. 94, 7723 (2003). [Full Text PDF]
  6. T. Karabacak, A. Mallikarjunan, J. P. Singh, D.-X. Ye, G.-C. Wang, and T.-M. Lu, "Beta-phase W nanorods formation by oblique angle sputter deposition", App. Phys. Lett. 83(15), 3096 (2003). [Full Text PDF]
  7. Jay J. Senkevich, F. Tang, D. Rogers, J.T. Drotar, G.-C. Wang, T.-M. Lu, Christopher Jezewski, and William A. Lanford, "Substrate independent palladium atomic layer deposition", Chemical Vapor Deposition 9(5), 258 (2003). [Full Text PDF]
  8. D.-L. Liu, D.-X. Ye, F. Khan, F. Tang, B.-K. Lim, R.C. Picu, G.-C. Wang, and T.-M. Lu, "Mechanics of patterned helical Si springs on Si substrate", Journal of Nanoscience and Nanotechnology 3(6), 492 (2003).[Full Text PDF]
  9. Y.-P. Zhao, D.-X. Ye, G.-C. Wang, and T.-M. Lu, "Designing nanostructures by glancing angle deposition", Proceedings of the SPIE - The International Society for Optical Engineering 5219, 59 (2003). [Full Text PDF]
  10. T.-M. Lu, Y.-P. Zhao, J.T. Drotar, T. Karabacak, and G.-C. Wang, "Novel Mechanisms on the Growth Morphology of Films", MRS proceedings 749, W1.2.1 (2003). [Full Text PDF]
  11. J.R. LaGraff, Y.-P. Zhao, D.J. Graber, D. Rainville (2002 REU), G.-C. Wang, T.M. Lu, Q. Chu-LaGraff, D. Szarowski, W. Shain, J.N. Turner, "Fabrication and imaging of protein crossover structures", Mat. Res. Soc. Symp. Proc. 735, 33 (2003). [Full Text PDF]

Publications before 2003:

Refereed Journals---

Characterization of chemisorbed layers, surface defects and ultrathin films

  1. J.C. Buchholz, G.-C. Wang, and M.G. Lagally, "Surface Crystallography of W(110) and W(110)p(2x1)-O: The Position of W Atoms," Surf. Sci. 49, 508 (1975).
  2. J.C. Buchholz, G.-C. Wang, and M.G. Lagally, "LEED Intensity-Averaging Experiments for Surface-Layer Structure Determination," J. Vac. Sci. Technol. 12, 213 (1975).
  3. A. Meyer, W.H. Young, and G.-C. Wang, "The von Weizsacker Coefficient in Density Functional Theory," Z. Naturforsch. 31a, 898 (1976).
  4. T.-M. Lu, G.-C. Wang, and M.G. Lagally, "Island-Dissolution Phase Transition in a Chemisorbed Layer," Phys. Rev. Lett. 39, 411 (1977).
  5. G.-C. Wang, T.-M. Lu, and M.G. Lagally, "Phase Transitions in the Chemisorbed Layer W(110)p(2x1)-O as a Function of Coverage I. Experimental," J. Chem. Phys. 69, 479 (1978).
  6. W.Y. Ching, D.L. Huber, G.-C. Wang, and M.G. Lagally, "Order-Disorder Transformations in Chemisorbed Layers: Oxygen on W(110)," Surf. Sci. 77, 550 (1978).
  7. G.-C. Wang and M.G. Lagally, "Quantitative Island Size Determination in the Chemisorbed Layer W(110)p(2x1)-O I. Instrument Response Function and Substrate Perfection," Surf. Sci. 81, 69 (1979).
  8. T.-M. Lu, G.-C. Wang, and M.G. Lagally, "Island Formation and Condensation of a Chemisorbed Overlayer," Surf. Sci. 92, 133 (1980).
  9. T.-M. Lu, S.R. Anderson, G.-C. Wang, and M.G. Lagally, "Quantitative Analysis of Step Densities Using a Two-Dimensional Random Probability Model," J. Vac. Sci. Technol. 17, 207 (1980).
  10. G.-C. Wang, D.T. Pierce, and R.J. Celotta, "Study of Temperature and Hydrogen Induced Reconstruction and Ordering of W(100) by Polarized Electron Scattering," J. Vac. Sci. Technol. 18, 647 (1981).
  11. G.-C. Wang, M.G. Lagally, and T.-M. Lu, "The Effect of Instrumental Broadening in LEED Intensity-Energy Profiles," Surf. Sci. 104, L229 (1981).
  12. T.-M. Lu and G.-C. Wang, "Reconstructed Domains on a Stepped W(100) Surface," Surf. Sci. 107, 139 (1981).
  13. G.-C. Wang, R.J. Celotta, and D.T. Pierce, "Polarized Low Energy Electron Diffraction from W(100)," Phys. Rev. B 23, 1761 (1981).
  14. T.-M. Lu, G.-C. Wang, and M.G. Lagally, "Quantitative Island Size Determination in the Chemisorbed Layer W(100)p(2x1)-O, II. Theory," Surf. Sci. 107, 494 (1981).
  15. E.G. McRae, G.-C. Wang, D.T. Pierce, and R.J. Celotta, "Polarized Low Energy Diffraction Study of the Mechanism of Electron Reflection from W(001) at Low Energies," Phys. Rev. B 25, 1761 (1981) .
  16. D.T. Pierce, G.-C. Wang, R.J. Celotta, and E.G. McRae, "Spin Dependence of Electronic Surface Resonance Scattering from W(100)," Solid State Commun. 39, 1053 (1981).
  17. J. Unguris, G.-C. Wang, D.T. Pierce, and R.J. Celotta, "PLEED Study of Temperature and Hydrogen Induced Reconstruction and Reordering of W(100)," Surf. Sci. 114, L35 (1982).
  18. L.-H. Zhao, T.-M. Lu, G.-C. Wang, and M.G. Lagally, "Low Energy Electron Diffraction from Overlayer Islands with Positional Correlation," Surf. Sci. 122, 519 (1982) .
  19. G.-C. Wang and T.-M. Lu, "Structure of Reconstructed Domains on a Stepped W(100) Surface," Surf. Sci. Lett. 122, L635 (1982).
  20. G.-C. Wang, D.T. Pierce, and R.J. Celotta, "A Constant Momentum Transfer Average Study of PLEED from W(100)," Surf. Sci. 119, 479 (1982).
  21. G.-C. Wang and T.-M. Lu, "Phase Diagram of Oxygen Chemisorbed on the W(112) Surface," Phys. Rev. B 28, 6795 (1983).
  22. G.-C. Wang and J.F. Wendelken, "Finite Size Effects on Reconstruction Domains of Tungsten (001) Surfaces," J. Vac. Sci. Technol. A2(2), 888 (1984).
  23. J.F. Wendelken and G.-C. Wang, "Hydrogen-Induced Reconstruction on a High Step Density W(001) Surface," Surf. Sci. 140, 425 (1984).
  24. J.F. Wendelken and G.-C. Wang, "Hydrogen-Induced Reconstruction on a High Step Density W(001) Surface Studied with LEED and EELS," J. Vac. Sci. Technol. A3, 1593 (1985).
  25. G.-C. Wang, J.M. Pimbley, and T.-M. Lu, "More than One Monolayer Adsorption of Oxygen on the W(112) Surface," Phys. Rev. B 31, 1950 (1985).
  26. J.M. Pimbley, T.-M. Lu, and G.-C. Wang, "Distribution of Domain Sizes During Overlayer Growth," Surf. Sci. 159, L467 (1985).
  27. J.M. Pimbley, T.-M. Lu, and G.-C. Wang, "Island Coalescence in a Chemisorbed Overlayer," J. Vac. Sci. Technol. A4(3), 1357 (1986).
  28. J.-K. Zuo, T.-M. Lu, G.-C. Wang, and J.F. Wendelken, "Impact of Step Edges on W(001) Surface Reconstruction," J. Vac. Sci. Technol. A5, 777 (1987).
  29. J.-K. Zuo and G.-C. Wang, "Defects in W(112) Surface," Surf. Sci. 194, L44 (1988).
  30. H.-S. Jin, K.-H. Park, A.-S. Yapsir, T.-M. Lu, G.-C. Wang, L. Luo, W.M. Gibson, I. Yamada, and T. Takagi, "Channeling Study of Epitaxial Al and Ag Films on Si(111) Substrates," Nuclear Instruments and Methods in Physics Research B40/41, 817-822 (1989).
  31. K.-H. Park, G.A. Smith, K. Rajan, and G.-C. Wang, "Interface Characterization of Epitaxial Ag Films on Si(100) and Si(111) and Si(111) Grown by Molecular Beam Epitaxy," Metal. Trans. 21A, 2323 (1990).
  32. A.J. Drehman, M.W. Dumais, J.A. Horrigan (Rome Air Force Base), G.-C. Wang, and Y.-F. Liew, "Near-Surface Stoichiometry of High Temperature Superconducting YBaCuO Thin Films," J. Mat. Res. 5, 1392 (1990).
  33. Y.-F. Liew and G.-C. Wang, "High Resolution Low Energy Electron Diffraction Characterization of Reconstructed Au(001) Surface," Surf. Sci. 227, 190 (1990).
  34. G.A. Smith, K.-H. Park, G.-C. Wang, T.-M. Lu, and W.M. Gibson, "Defect Analysis of Epitaxial Ag Films on Silicon by MeV Ion Channeling," Surf. Sci. 233, 115 (1990).
  35. Y.-L. He, G.-C. Wang, A.J. Drehman, and H.-S. Jin, "X-ray Pole-Figure Analysis of YBa2Cu3O7-x Thin Film on SrTiO3(100) Prepared by RF Diode Sputtering," J. of Appl. Phys. 67, 7460 (1990).
  36. G.-C. Wang, "What Can High Resolution Low Energy Electron Diffraction Contribute to Surface Physics Research?" Hong Kong Baptist College Press (1991).
  37. Y.-L. He, J.-K. Zuo, and G.-C. Wang, "High Resolution LEED Studies of Surface Misorientation and Incommensurate Domain Walls on Reconstructed Pt(110) Surface," Surf. Sci. 254, 21 (1991).
  38. D.C. McKenna, G.-C. Wang, and K. Rajan, "A Diffraction Study of A Heteroepitaxial System - Ag/Si(111)," J. Electron. Mat. 20, 753 (1991).
  39. Y.-L. He, J.-K. Zuo, G.-C. Wang, and J.J. Low, "Diffusion of Rh Overlayers Grown on a Pt(110) Surface," Surf. Sci. 255, 269 (1991).
  40. Y.-F. Liew, Y.-L. He, A. Chan, and G.-C. Wang, "A Simple Method to Determine the Step Heights on Ultrathin Hetero-epitaxial Films," Surf. Sci. Lett. 273, L461 (1992).
  41. H.-N. Yang, A. Chan, and G.-C. Wang, "Examination of the Multi-level Diffraction Model for Interface Roughness Characterization by Scanning Tunneling Microscopy," J. Appl. Phys. 74, 101 (1993).
  42. Y.-L. He and G.-C. Wang, "Atomic Place Exchange in Ultrathin Fe Films on Au(001)," Phys. Rev. Lett. 71, 3834 (1993).
  43. K. Fang and G.-C. Wang, "The Rotational Disorder of Pb/W(112)," Surf. Sci. 303, 347 (1994).
  44. K. Fang, R. Adame, H.-N. Yang, G.-C. Wang, and T.-M. Lu, "Measurement of Roughness Exponent for Very Rough Surfaces Using Angle Resolved Light Scattering," Appl. Phys. Lett. 66, 2077 (1995).
  45. H.-N. Yang, G.-C. Wang, and T.-M. Lu, "Formation of Facets and Pyramidlike Structures in Molecular Beam Epitaxy Growth of Si on a Singular Si(111) Surface," Phys. Rev. B 51, 14293 (1995).
  46. H.-N. Yang, G.-C. Wang, and T.-M. Lu, "Quantitative Study of the Decaying of Intensity Oscillation in Transient Layer-by-layer Growth," Phys. Rev. B 51, 17932 (1995).
  47. R. Cutler (1993 REU student), G.-C. Wang, and T.-M. Lu, "Diffraction from Reconstructed Surfaces with Incommensurate Domain Walls," Surf. Sci. 340, 258 (1995).
  48. Y.-P. Zhao, H.-N. Yang, G.-C. Wang, and T.-M. Lu, "Extraction of Real Space Correlation Function of a Rough Surface by Light Scattering Using Diode Array Detectors," Appl. Phys. Lett. 68, 3063 (1996). [Full Text PDF]
  49. Y.-P. Zhao, Y.-J. Wu (National Taiwan Ocean University), H.-N. Yang, G.-C, Wang, and T.-M. Lu, "In Situ Real Time Study of Chemical Etching Process of Si(100) Using Light Scattering," Appl. Phys. Lett. 69, 221 (1996). [Full Text PDF]
  50. H.-N. Yang, A. Chan, Y.-P. Zhao, T.-M. Lu, and G.-C. Wang, "Sampling Induced Hidden Cycles in Correlated Random Rough Surfaces," Phys. Rev. B 56, 4224 (1997). [Full Text PDF]
  51. Y.-P. Zhao, G.-C. Wang, and T.-M. Lu, "Diffraction from Non-Gaussian Rough Surfaces," Phys. Rev. B 55, 13938 (1997). [Full Text PDF]
  52. B. Poserow (1994 REU student), Q. Jiang, and G.-C. Wang, "Vertical layer distribution and atomic step height of ultrathin Co films on Cu(001) determined by lattice G-factor analysis," Surf. Sci. 308, 103 (1997).
  53. T.-M. Lu, G.-C. Wang, and Y.-P. Zhao, "Beyond intensity oscillation," Surf. Rev. Lett. 5, 899 (1998). [Full Text PDF]
  54. Y.-P. Zhao, G.-C. Wang, and T.-M. Lu,"Diffraction from diffusion barrier induced mound structures in epitaxial growth fronts," Phys. Rev. B 57, 1922 (1998).
  55. Y.-P. Zhao, G.-C. Wang, and T.-M. Lu, "Diffraction From Anisotropic Random Rough Surfaces," Phys. Rev. B 58, 7300 (1998). [Full Text PDF]
  56. Y.-P. Zhao, C.-F. Cheng, G.-C. Wang, and T.-M. Lu, "Power law behavior in diffraction from fractal surfaces," Surf. Sci. 409, L703 (1998). [Full Text PDF]
  57. Y.-P. Zhao, Irene Wu (1996 REU student), C.-F. Cheng, Ueyn Block (1997 REU student), G.-C. Wang, and T.-M. Lu, "Characterization of random rough surfaces by in-plane light scattering," J. Appl. Phys. 84, 2571 (1998). [Full Text PDF]
  58. T. Karabacak, Y.-P. Zhao, M. Stowe (1998 REU student), B. Quyle (1998 REU student), G.-C. Wang, and T.-M. Lu, "Large angle in-plane light scattering from rough surfaces," J. of Applied Optics, 39, 4658-68 (2000). [Full Text PDF]
  59. T. Karabacak, Y.-P. Zhao, T. Liew (U. of Singapore, Data Storage Institute), G.-C. Wang, and T.-M. Lu, "Anisotropic scaling of hard disk surface structures," J. of Appl. Phys. 88, 3361-6 (2000). [Full Text PDF]

Magnetism of ultrathin ferromagnetic films

  1. G.-C. Wang, B.I. Dunlap, R.J. Celotta, and D.T. Pierce, "Symmetry in Polarized LEED," Phys. Rev. Lett. 42, 1349 (1979).
  2. D.T. Pierce, G.-C. Wang, and R.J. Celotta, "Face Dependence of the Spin Polarization of Photoelectrons from NEA GaAs(100) and (110)," Appl. Phys. Lett. 35, 220 (1979).
  3. R.J. Celotta, G.-C. Wang, D.T. Pierce, S.D. Bader, and G.P. Felcher, "Surface Magnetization of Ferromagnetic Ni(110)-A Polarized LEED Experiment," Phys. Rev. Lett. 43, 728 (1979).
  4. D.T. Pierce, G.-C. Wang, R.J. Celotta, G.P. Felcher, S.D. Bader, and K. Miyano, "A Polarized LEED Study of Surface Magnetism," J. Magn. Magn. Mater. 15-18, 1583 (1980).
  5. D.T. Pierce, R.J. Celotta, G.-C. Wang, W.N. Unertl, A. Galejs, C.E. Kuyatt, and S.R. Mielczarek, "The GaAs Spin Polarized Electron Source," Rev. Sci. Instrum. 51, 478 (1980).
  6. J.-P. Qian and G.-C. Wang, "A Simple Ultrahigh Vacuum Surface Magneto-optic Kerr Set-up for the Study of Surface Magnetic Anisotropy," J. Vac. Sci. Technol. A8, 4117 (1990).
  7. Y.-L. He and G.-C. Wang, "Observation of Dynamic Scaling of Magnetic Hysteresis in Ultrathin Ferromagnetic Fe/Au(001)," Phys. Rev. Lett. 70, 1336 (1993).
  8. Y-L. He, Y.-F. Liew, and G.-C. Wang, "Growth and Magnetic Scaling of Ultrathin Fe Films," J. Appl. Phys. 75, 5580 (1994).
  9. Y.-L. He and G.-C. Wang, "Roughness Dependent Magnetic Hysteresis of a Few Monolayer Thick Fe Films on Au(001)," J. Appl. Phys. 76, 6446(1994).
  10. Q. Jiang, H.-N. Yang, and G.-C. Wang, "Scaling and Dynamics of Low Frequency Hysteresis Loops in Ultrathin Co Films on a Cu(001) Surface," Phys. Rev. B 52, 14911 (1995).
  11. Q. Jiang, H.-N. Yang, and G.-C. Wang, "Field Dependent Resonance Frequency of Hysteresis Loops in a few Monolayer Thick Co/Cu(001) Films," J. Appl. Phys. 79, 5122 (1996).
  12. Q. Jiang and G.-C. Wang, "Correlation Between Dynamic Magnetic Hysteresis Loop and Nanoscale Roughness of Ultrathin Co Films," J. Vac. Sci. Technol. B14, 3180 (1996).
  13. M. Li and G.-C. Wang, "Simple Setup Combining Ferromagnetic Resonance and Surface Magneto-Optic Kerr Effect for Measurements of Magnetic Properties of Ultrathin Films in Ultrahigh Vacuum," J. Vac. Sci. Technol. A14, 3288 (1996).
  14. Q. Jiang, H.-N. Yang, and G.-C. Wang, "Effect of Interface Roughness on Hysteresis Loops of Ultrathin Co Films From 2 ML to 30 ML on Cu(001) surfaces," Surf. Sci. 373, 181 (1997).
  15. M. Li, Y.-P. Zhao, G.-C. Wang, and H.-G. Min, "Effect of Surface Roughness on Magnetic Properties of Co Films on Plasma-Etched Si(100) Substrates," J. Appl. Phys. 83, 5313 (1998). [Full Text PDF]
  16. H.-G. Min, S.-H. Kim, M. Li, J.B. Wedding, and G.-C. Wang, "Thickness Dependent Coercivity of Ultrathin Co Films on Rough Substrates: Cu Buffered Si(111)," Surf. Sci. 400, 19 (1998).
  17. M. Li and G.-C. Wang, "A Setup Combing Four-Point Probe and Surface Magneto-Optical Kerr Effect for Measurements of Magnetotransport and Magnetic Properties of Ultrathin Films in Ultrahigh Vacuum," Rev. Sci. Instrum. 69, 1811 (1998).
  18. J.B. Wedding, M. Li, and G.-C. Wang, "Magnetization Reversal of a Thin Polycrystalline Co Film Measured by MOKE Technique and Field-Dependent Magnetic Force Microscopy," J. Mag. Mag. Mater. 204, 79 (1999).
  19. Y.-P. Zhao, G.-C. Wang, G. Palasantzas and J. Th. M. De Hosson, "Surface/Interface-Roughness-Induced Demagnetizing Effect in Thin Magnetic Films," Phys. Rev. B 60, 1216 (1999). [Full Text PDF]
  20. M. Li (Headway Technology) and G.-C. Wang, "In Situ Measurement of Thickness Dependence of Magnetoresistance and Hysteresis Loops of Ultrathin Co Films on a SiO2/Si(111) Substrate," J. Mag. Mag. Mater. 217, 199-206 (2000).
  21. G. Palasantzas (Netherlands), Y.-P. Zhao, J. Th. M. De Hosson (Netherlands), G.-C. Wang, "Roughness Effects on Magnetic Properties of Thin Films," Physica B 283, 199-202 (2000). [Full Text PDF]
  22. Y.-P. Zhao, R.M. Gamache, G.-C. Wang, T.-M. Lu, G. Palasantzas and J. Th. M. De Hosson, "Effect of surface roughness on magnetic domain wall thickness, domain size, and coercivity," J. Appl. Phys. 89, 1325 (2001). [Full Text PDF]

Surface phase transitions and thin film stability

  1. G.-C. Wang and T.-M. Lu, "Physical Realization of 2-D Ising Critical Phenomena: Oxygen Chemisorbed on the W(112) Surface," Phys. Rev. B 31, 5918 (1985).
  2. J.F. Wendelken and G.-C. Wang, "Finite Size Effect on the Critical Behavior of the Phase Transition of W(001) Surfaces," Phys. Rev. B 32, 7542 (1985).
  3. J.-K. Zuo, R.A. Harper, and G.-C. Wang, "Roughening of Si(111) Surface," Appl. Phys. Lett. 51, 250 (1987).
  4. H.-N. Yang, G.-C. Wang, and T.-M. Lu, "Collapsing of Thermally Induced Steps in Pb (111) Surface," Phys. Rev. Lett. 62, 2148 (1989).
  5. J.-K. Zuo, Y.-L. He, G.-C. Wang, and T.E. Felter (Sandia National Laboratory), "High Resolution Low Energy Electron Diffraction Study of Pt(110) (1X2) to (1X1) Phase Transition," J. Vac. Sci. Technol. A8, 2474 (1990) .
  6. H.-N. Yang, G.-C. Wang, and T.-M. Lu, "High-Resolution Low-Energy Electron Diffraction Study of Pb(110) Surface Roughening Transition," Phys. Rev. Lett. 63, 1621 (1989).
  7. J.-K. Zuo and G.-C. Wang, "Effect of Impurities on the Phase Transition and Critical Phenomena of a Chemisorbed Overlayer," Phys. Rev. B 41, 7078 (1990).
  8. H.-N. Yang, G.-C. Wang, and T.-M. Lu, "High Resolution Low Energy Electron Diffraction Analysis of Pb(110) Roughening Transition," Phys. Rev. B 43, 4714 (1991).
  9. H.-N. Yang, K. Fang, G.-C. Wang, and T.-M. Lu, "Vacancy Induced Disordering in the Pb(100) Surface," Phys. Rev. B 44, 1306 (1991).
  10. H.-N. Yang, K. Fang, G.-C. Wang, and T.-M. Lu, "Observations of a Novel Double-Step Phase in Pb(110) Surface," Europhys. Lett. 19, 215 (1992).
  11. K. Fang, H.-N. Yang, and G.-C. Wang, "Modification of Surface Structure and Roughening Transition," Surface Sci. Lett. 284, L399 (1993).
  12. H.-N. Yang, K. Fang, T.-M. Lu, and G.-C. Wang, "Diffuse Light Scattering Study of Pb(110) Surface Roughening-Melting Transition," Phys. Rev. B 47, 15842 (1993).
  13. Q. Jiang, Y.-L. He, and G.-C. Wang, "Thermal Stability and Intermixing of Ultrathin Fe Films on Au(001)," Surf. Sci. 295, 197 (1993).
  14. K. Fang and G.-C. Wang, "Roughening/Facetting in Pb Thin Film Growing on Pb(110) Surface," Phys. Rev. B 49, 8331 (1994).
  15. Q. Jiang and G.-C. Wang, "Scaling of Island Size Distribution and Island Coalescence in Monolayer Epitaxial Growth of 1X1 Film," Surf. Sci. 324, 357 (1995).
  16. J. B. Wedding and G.-C. Wang, "A New 30 degrees- Rotated (7X7) Superstructure Formed by Codeposition of Cu and Si on Si(111)(7X7), " Surf. Sci. 467, 107-117 (2000).

Dynamic scaling in submonolayer and thin film growth fronts

  1. G.-C. Wang and T.-M. Lu, "Dynamics of Two-Dimensional Ordering: Oxygen Chemisorbed on the W(112) Surface," Phys. Rev. Lett. 50, 2014 (1983).
  2. G.-C. Wang and T.-M. Lu, "Kinetics of Antiphase Domains Coarsening in an Overlayer," J. Vac. Sci. Technol. A2(2), 1048 (1984).
  3. J.-K. Zuo and G.-C. Wang, "Effects of Random Impurities on Two-Dimensional Island Growth in Chemisorbed Overlayer," J. Vac. Sci. Technol. A6, 649 (1988).
  4. J.-K. Zuo, G.-C. Wang, and T.-M. Lu, "Growth Kinetics of a Chemisorbed Overlayer in the Presence of Impurities," Phys. Rev. Lett. 60, 1053 (1988).
  5. J.-K. Zuo, G.-C. Wang, and T.-M. Lu, "Random Field Effects on Dynamical Scaling in the Domain Growth of a Chemisorbed Overlayer," Phys. Rev. B40, 524 (1989).
  6. J.-K. Zuo, G.-C. Wang, and T.-M. Lu, "Dynamical Scaling in the Domain Growth of a Chemisorbed Overlayer: W(112)(2x1)-Oxygen," Phys. Rev. B39, 9432 (1989).
  7. J.-K. Zuo and G.-C. Wang, "Self-Similar Domain Growth in a Chemisorbed Overlayer in the Presence of Impurities," J. Vac. Sci. Technol. A7, 2155 (1989).
  8. H.-N. Yang, T.-M. Lu, and G.-C. Wang, "Time Invariant Structure Factor in an Epitaxial Growth Front," Phys. Rev. Lett. 68, 2612 (1992).
  9. H.-N. Yang, J.-K. Zuo (Oak Ridge National Laboratory), K. Fang, T.-M. Lu, and G.-C. Wang, "High-Resolution Low-Energy Diffraction Study of Surface Instabilities and Growth Dynamics," 1991 Fall Material Research Society Proc. 237, 49 (1992).
  10. H.-N. Yang, T.-M. Lu, and G.-C. Wang, "Diffraction from Surface Growth Fronts," Phys. Rev B 47, 3911 (1993).
  11. Y.-L. He, H.-N. Yang, T.-M. Lu, and G.-C. Wang, "Measurements of Dynamic Scaling from Epitaxial Growth Front," Phys. Rev. Lett. 69, 3770 (1992).
  12. H.-N. Yang, G.-C. Wang, and T.-M. Lu, "Anomalous Dynamic Scaling in the Ion-Sputtered Si(111) Surface," Phys. Rev. B 50, 7635 (1994).
  13. Q. Jiang, A. Chan, and G.-C. Wang, "Dynamical Scaling of Island Size Distribution in Submonolayer Growth of 1x1 films," Phys. Rev. B 50, 11116 (1994).
  14. H.-N. Yang, G.-C. Wang, and T.-M. Lu, "Instability in Low Temperature Molecular Beam Epitaxial Growth of Si/Si(111)," Phys. Rev. Lett. 73, 2346 (1994).
  15. H.- N. Yang, G.-C. Wang, and T.-M. Lu, "Real Time Measurements of the Deterministic Relaxation of an Initially Rough Si(111) Surface," Phys. Rev. Lett. 74, 2276 (1995).
  16. H.-N. Yang, Y.-P. Zhao, G.-C. Wang, and T.-M. Lu, "Noise-Induced Roughening Evolution of Amorphous Si Films Grown by Thermal Evaporation," Phys. Rev. Lett. 76, 3774 (1996). [Full Text PDF]
  17. A. Chan and G.-C. Wang, "Roughness Evolution of Si(111) by Low-Energy Ion Bombardment," Surf. Sci. 414, 17 (1998).
  18. Y.-P. Zhao, G.-C. Wang, and T.-M. Lu, "Anisotropy in Growth Front Roughening," Phys. Rev. B 58, 13909 (1998). [Full Text PDF]
  19. Y.-P. Zhao, C.-F. Cheng, G.-C. Wang, and T.-M. Lu, "Characterization of Pitting Corrosion in Al Films by Light Scattering," Appl. Phys. Lett. 73, 2432 (1998). [Full Text PDF]
  20. J.T. Drotar, Y.-P. Zhao, T.-M. Lu, and G.-C. Wang, "Numerical Analysis of the Noisy Kuramoto-Sivashinsky Equation in 2+1 Dimensions," Phys. Rev. E 59, 177 (1999). [Full Text PDF]
  21. Y.-P. Zhao, J.T. Drotar, G.-C. Wang, and T.-M. Lu, "Roughening in Plasma Etch Front of Si(100)," Phys. Rev. Lett. 82, 4882 (1999). [Full Text PDF]
  22. Y.-P. Zhao, A. R. Hopper (1998 REU student), G.-C. Wang, and T.-M. Lu, "Monte Carlo Simulation of the Submonolayer Vapor Deposition Polymerization, " Phys. Rev. E 60, 4310(1999). [Full Text PDF]
  23. J. T. Drotar, Y.-P. Zhao, T.-M. Lu, and G.-C. Wang, "Mechanisms for Plasma and Reactive Ion Etch-Front Roughening", Phys. Rev. B 61, 3012-21 (2000). [Full Text PDF]
  24. Y.-P. Zhao, G.-C. Wang, and T.-M. Lu, "Study of Surface Etch-Front Morphology Using In-Plane Light Scattering", SPIE, 3784, 314 (1999).
  25. J. T. Drotar, Y.-P. Zhao, T.-M. Lu, and G.-C. Wang, "Surface Roughening in Shadowing Growth and Etching in 2+1 Dimensions," Phys. Rev. B 62, 2118 (2000). [Full Text PDF]
  26. Y.-P. Zhao, J. B. Fortin, G. Bonvallet (1999 REU student), G.-C. Wang, and T.-M. Lu, "Kinetic Roughening in Polymer Film Growth by Vapor Deposition," Phys. Rev. Lett. 85, 3229 (2000). [Full Text PDF]
  27. Y.-P. Zhao, T.-M. Lu, and G.-C. Wang, Reply to the comment "On the Kinetic Roughening in Polymer Film Growth by Vapor Deposition," by P. Punyindu and S. Das Sarma, Phys. Rev. Lett., Phys. Rev. Lett. 86, 2697 (2001).
  28. Y.-P. Zhao, Jason T. Drotar, G.-C. Wang, and T.-M. Lu, "Morphology Transition During Low-Pressure Chemical Vapor Deposition," Phys. Rev. Lett. 87, 136102 (2001). [Full Text PDF]
  29. T. Karabacak, Y.-P. Zhao, G.-C. Wang and T.-M. Lu, "Growth-front Roughening in Amorphous Silicon Films by Sputtering," Phys. Rev. B 64, 085323 (2001). [Full Text PDF]
  30. Jason T. Drotar, Y.-P. Zhao, T.-M. Lu and G.-C. Wang, "Surface Roughening in Low-Pressure Chemical Vapor Deposition," Phys. Rev. B 64, 125411 (2001). [Full Text PDF]
  31. J.B. Wedding, G.-C. Wang, and T.-M. Lu, "Scanning Tunneling Microscopy Study of Rough Si Films Deposited on Si(111)," Surface Science 478, 83-98 2001.
  32. T. Karabacak, Y.-P. Zhao, G.-C. Wang, and T.-M. Lu, "Kinetic Roughening in Silicon Nitride Films Growth by Plasma Enhanced Chemical Vapor Deposition", Phys. Rev. B 66, 075329/1-10 (2001).
  33. J.B. Wedding, G.-C. Wang, and T.-M. Lu, "Vacancy-enhanced Submonolayer Nucleation of Si on Si(100)", Surf. Sci. 504, 28 (2002).
  34. T. Karabacak, Y.-P. Zhao, G.-C. Wang, and T.-M. Lu, "Growth Front Roughening in Silicon Nitride Films by Plasma-enhanced Chemical Vapor Deposition", Phys. Rev. B 66, 075329/1-10 (2002).

Electrical properties of ultrathin magnetic, non magnetic films, and nanotubes

  1. Y.-P. Zhao, G.-C. Wang, T.-M. Lu, G. Palasantzas and J. Th. M. Hosson, "Surface-Roughness Effect on Capacitance and Leakage Current of an Insulating Film," Phys. Rev. B 60, 9157 (1999). [Full Text PDF]
  2. G. Palasantzas, Y.-P. Zhao, G.-C. Wang, T.-M. Lu, J. Barnas (Netherlands), and J. Th. M. De Hosson (Netherlands), "Electrical Conductivity and Thin Film Growth Dynamics," Phys. Rev. B 61, 11109-11117 (2000). [Full Text PDF]
  3. M. Li, Y.-P. Zhao, and G.-C. Wang, "In-Situ Measurement of Thickness Dependent Electrical Resistance of Ultrathin Co Films on Thick SiO2/Si(100) Substrate," J. Vac. Sci. Technol.A18, 2992 (2000).
  4. T.S. Kuan, C.K. Inoki, G.X. Oehrlein, K. Rose, Y.P. Zhao, G.-C. Wang, S.M. Rossnagel, and C. Cabral, "Fabrication and Performance Limits of Sub-0.1 mm Cu Interconnects," Mat. Res. Soc. Symp. Proc. 612 (2000).
  5. H.-D. Liu, Y.-P. Zhao, G. Ramanath (Material Sci. & Engr.), S. P. Murarka (Material Sci. & Engr.), and G.-C. Wang, "Thickness Dependent Electrical Resistivity of Ultrathin (<40 nm) Cu Films," Thin Solid Films 384, 151-156 (2001).
  6. Y.-P. Zhao, B. Q. Wei, P. M. Ajayan, G. Ramanath, T.-M. Lu, and G.-C. Wang, A. Rubio and S. Roche, "Anomalous Frequency Dependent Electrical Transport in Carbon Nanotubes," Phys. Rev. B64, 201402(2001).

Growth and characterization of nanostructures and atomic layers

  1. Jason T. Drotar, B.-Q. Wei, Y.-P. Zhao, G. Ramanath, P.M. Ajayan, T.-M. Lu, and G.-C. Wang, "Reflection High Energy Electron Diffraction From Carbon Nanotubes," Phys. Rev. B 64, 125417 (2001). [Full Text PDF]
  2. Y.-P. Zhao, D.-X. Ye, G.-C. Wang, "Novel Nano-column and Nano-flower Arrays by Glancing Angle Deposition", and T.-M. Lu, Nano. Lett. 2, 351 (2002).
  3. Y.-P. Zhao, D.-X. Ye, Pei-I Wang, G.-C. Wang, and T.-M. Lu, "Fabrication of Si Nano-Columns and Si Square Spirals on Self-assembled Monolayer Colloid Substrates", International J. of Nanoscience 1, 87 (2002).
  4. Q.M. Hudspeth, K.P. Nagle (2001 REU student), Y.-P. Zhao, T. Karabacak, C.V. Nguyen (ELORET Corp.), M. Meyyappan (NASA), G.-C. Wang, and T.-M. Lu, "How Does an MWNT AFM Tip Affect the Determination of Surface Roughness Statistics?", Surface Science, 515, 453 (2002).
  5. Y.-C. Chen, N. R. Raravikar, Y.-P. Zhao, L. S. Schadler, P. M. Ajayan, T.-M. Lu, G.-C. Wang, and X.-C. Zhang, "Ultrafast Optical Switching Properties of Single-wall Carbon Nanotube Polymer Composites at 1.55 mm", Appl. Phys. Lett. 81, 975 (2002).
  6. Jay J. Senkevich, Boquan Li, G.-R. Yang, G.-C. Wang, and T.-M. Lu, "Copper Wetting of a Tetrasulfide Self-assembled Monolayer", Electrochemical and Solid State letters 5, C94 (2002).
  7. J.P. Singh, G.R. Yang, T.-M. Lu, and G.-C. Wang, "Retardation of Oxidation in Co Nano Columns: Scanning Tunneling Microscopy Study", Appl. Phys. Lett. 81, 4601 (2002).
  8. D.-X. Ye, Y.-P. Zhao, G.-R. Yang, G.-C. Wang, and T.-M. Lu, "Manipulating the Column Tilt Angles of Naocolumar Films by Glancing-angle Deposition", Nanotechnology 13, 615 (2002).

Nonrefereed journals

  1. M.G. Lagally, G.-C. Wang, and T.-M. Lu, "Observations of Island Formation and Dissolution in a Chemisorbed Layer by LEED," Proceedings of International Conference of Ordering in Two Dimensions, ed. S.K. Sinha, North Holland Publishing Company, 113 (1980).
  2. G.P. Felcher, S.D. Bader, R.J. Celotta, D.T. Pierce, and G.-C. Wang, "Magnetic State at the Surface of a Ferromagnet by Polarized Electron Diffraction," Proceedings of International Conference of Ordering in Two Dimensions, ed. S.K. Sinha, North Holland Publishing Company, 107 (1980).
  3. R.J. Celotta, D.T. Pierce, G.-C. Wang, S.D. Bader, and G.P. Felcher, "Surface Magnetization in Ni(110) as Studied by Polarized Electron Scattering," Proc. 4th Intl. Conf. on Solid Surfaces and 3rd ECOSS, Cannes (1980), ed. by D.A. Degras and M. Costa, Supplement a la Revue "Le Vide les Couches Minces" No. 201, Societe Francaise du Vide, Paris, France, 1045 (1980).
  4. D.T. Pierce, R.J. Celotta, and G.-C. Wang, "Spin Polarized Electron Scattering Studies of W(100)," Proc. 4th Intl. Conf. on Solid Surfaces and 3rd ECOSS, Cannes (1980), Vol. II, ed. by D.A. Degras and M. Costa, Supplement a la Revue "Le Vide les Couches Minces" No. 201, Societe Francaise du Vide, Paris, France, 1060 (1980).
  5. D.T. Pierce, G.-C. Wang, and R.J. Celotta, "What can PLEED Contribute to Surface Structure Determination?" in Proceedings of the Conference on Determination of Surface Structures by LEED, Yorktown Heights, New York, ed. P.M. Marcus and F. Jona, Plenum Press, New York, 339 (1984).
  6. J.F. Wendelken, G.-C. Wang, J.M. Pimbley, and T.-M. Lu, "Characterization of Surface Defect Structure by Low Energy Electron Diffraction," Mat. Res. Soc. Symp. Proc. 41, 171 (1985).
  7. G.-C. Wang, D.M. Zehner, and H.C. Eaton, "Studies of Surface Composition and Phase Transition of Mo-5% Re (100)," Mat. Res. Soc. Proc. 83, 29 (1987).
  8. K.-H. Park, H.-S. Jin, L. Luo, G.-C. Wang, W.M. Gibson, and T.-M. Lu, "Epitaxial Growth of Thick Ag(111)/Si(111) Films," Mat. Res. Soc. Symp. 102, 271 (1988).
  9. K.-H. Park, G.A. Smith, D.C. McKenna, L. Luo, H.-S. Jin, W.M. Gibson, K. Rajan, T.-M. Lu, and G.-C. Wang, "Defect Structure Analysis of Thick Epitaxial Films with Very Large Lattice Mismatch: Ag/Si(111) and Ag/Si(001)," Proc. of Mat. Res. Soc. Symp. 138, 545 (1989).
  10. H.-S. Jin, H. Homma, D. Yan, G.-C. Wang, and A.J. Drehman, "The Determination of the Oxygen Stoichiometry in High Tc Superconducting Thin Films using Nuclear Scattering of 3 MeV Protons," 1989 Fall Mat. Res. Soc. Symp. 169, 209 (1990).
  11. D.C. McKenna, K.-H. Park, G.-C. Wang, and G.A. Smith, "Effect of Substrate Misorientation on Heteroepitaxy with Large Lattice Mismatch: Ag/Si(111)," 1989 Fall Mats Res. Soc. Symp. 160, 225 (1990).
  12. D.C. McKenna, G.-C. Wang, and K. Rajan, "Characterization of Interfacial Structure in Large Lattice Mismatch Heteroepitaxy: Ag/Si(111)," 1990 Fall Mat. Res. Soc. Symp. (1990).
  13. Y.-F. Liew and G.-C. Wang, "Morphology and Magnetic Phase Transitions of Monolayer-Range Fe Films on Au(001)," Spring Mat. Res. Soc. Symp. 231, 311 (1992).
  14. Y.-L. He and G.-C. Wang, "High Resolution Low Energy Electron Diffraction Study of Intermixing of Heteroepitaxial Ultrathin Fe Films on Au(001)," 1991 Fall Mat. Res. Soc. Symp. 237, 429 (1992).
  15. H.-N. Yang, J.-K. Zuo (Oak Ridge National Laboratory), K. Fang, T.-M. Lu, and G.-C. Wang, "High-Resolution Low-Energy Diffraction Study of Surface Instabilities and Growth Dynamics", Material Research Society Proc. 237, 49 (1992).
  16. Q. Jiang, A. Chan, Y.-L. He, and G.-C. Wang, "In Situ Characterization of Growth and Intermixing in a Heteroepitaxial Interface: Fe/Au(001)," Mat. Res. Proc. 318 (1994).
  17. T.-M. Lu, H.-N. Yang, and G.-C. Wang, "When Interface Gets Rough...," Mat. Res. Soc. Symp. Proc. 367, 283 (1995).
  18. J. T. Drotar, Y.-P. Zhao, T.-M. Lu, and G.-C. Wang, "Why Is KPZ Type Surface Roughening so Hard to Observe? " Material Research Society Proceeding, 648, P7.9.1 (2001).
  19. T.-M. Lu, Y.-P. Zhao, J.T. Drotar, T. Karabacak, and G.-C. Wang, "Novel Mechanisms on the Growth Morphology of Films", MRS proceedings 749, W1.2.1 (2003).
  20. J.R. LaGraff, Y.-P. Zhao, D.J. Graber, D. Rainville (2002 REU), G.-C. Wang, T.-M. Lu, Q. Chu, D. Szarowski, W. Shain, J.N. Turner, in: Bio-inspired Nanoscale Hybrid Systems, Eds. G. Schmid, U. Simon, S.J. Stranick, S.M. Arrivo, S. Hong, "Fabrication and imaging of protein crossover structures", Mat. Res. Soc. Symp. Proc. 735, 33 (2003).
  21. T.-M. Lu, Y.-P. Zhao, J.T. Drotar, T. Karabacak, and G.-C. Wang, "Novel mechanisms on the growth morphology of films", MRS proceedings 749, W1.2.1 (2003).
  22. Tansel Karabacak, Pei-I Wang, Gwo-Ching Wang, and Toh-Ming Lu, "Growth of single crystal tungsten nanorods by oblique angle sputter deposition", MRS 788, 75-80 (2004).
  23. Claudiu L. Hapenciuc1, Fazeel J. Khan1, Theodorian Borca-Tasciuc1, and Gwo-Ching Wang2, 1Mechanical and Aerospace Engineering Department, Rensselaer Polytechnic Institute, 2Department of Physics, Applied Physics and Astronomy, Rensselaer Polytechnic Institute, "Development of experimental techniques for thermoelectric properties characterization of low-dimensional structures", Mat. Res. Soc. Symp. Proc. 893, 181 (2004).
  24. T.-M. Lu, D.-X. Ye, T. Karabacak, and G.-C. Wang, "Physical self-assembly and nanopatterning", Mat. Res. Soc. Symp. Proc. 849, 13 (2005).